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Deployment and operational aspects of rural broadband wireless access networksBernardi, Giacomo January 2012 (has links)
Broadband speeds, Internet literacy and digital technologies have been steadily evolving over the last decade. Broadband infrastructure has become a key asset in today’s society, enabling innovation, driving economic efficiency and stimulating cultural inclusion. However, populations living in remote and rural communities are unable to take advantage of these trends. Globally, a significant part of the world population is still deprived of basic access to the Internet. Broadband Wireless Access (BWA) networks are regarded as a viable solution for providing Internet access to populations living in rural regions. In recent years, Wireless Internet Service Providers (WISPs) and community organizations around the world proved that rural BWA networks can be an effective strategy and a profitable business. This research began by deploying a BWA network testbed, which also provides Internet access to several remote communities in the harsh environment of the Scottish Highlands and Islands. The experience of deploying and operating this network pointed out three unresolved research challenges that need to be addressed to ease the path towards widespread deployment of rural BWA networks, thereby bridging the rural-urban broadband divide. Below, our research contributions are outlined with respect to these challenges. Firstly, an effective planning paradigm for deploying BWA networks is proposed: incremental planning. Incremental planning allows to anticipate return of investment and to overcome the limited network infrastructure (e.g., backhaul fibre links) in rural areas. I have developed a software tool called IncrEase and underlying network planning algorithms to consider a varied set of operational metrics to guide the operator in identifying the regions that would benefit the most from a network upgrade, automatically suggesting the best long-term strategy to the network administrator. Second, we recognize that rural and community networks present additional issues for network management. As the Internet uplink is often the most expensive part of the operational expenses for such deployments, it is desirable to minimize overhead for network management. Also, unreliable connectivity between the network operation centre and the network being managed can render traditional centralized management approaches ineffective. Finally, the number of skilled personnel available to maintain such networks is limited. I have developed a distributed network management platform called Stix for BWA networks, to make it easy to manage such networks for rural/community deployments and WISPs alike while keeping the network management infrastructure scalable and flexible. Our approach is based on the notions of goal-oriented and in-network management: administrators graphically specify network management activities as workflows, which are run in the network on a distributed set of agents that cooperate in executing those workflows and storing management information. The Stix system was implemented on low-cost and small form-factor embedded boards and shown to have a low memory footprint. Third, the research focus moves to the problem of assessing broadband coverage and quality in a given geographic region. The outcome is BSense, a flexible framework that combines data provided by ISPs with measurements gathered by distributed software agents. The result is a census (presented as maps and tables) of the coverage and quality of broadband connections available in the region of interest. Such information can be exploited by ISPs to drive their growth, and by regulators and policy makers to get the true picture of broadband availability in the region and make informed decisions. In exchange for installing the multi-platform measurement software (that runs in the background) on their computers, users can get statistics about their Internet connection and those in their neighbourhood. Finally, the lessons learned through this research are summarised. The outcome is a set of suggestions about how the deployment and operation of rural BWA networks, including our own testbed, can be made more efficient by using the proper tools. The software systems presented in this thesis have been evaluated in lab settings and in real networks, and are available as open-source software.
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Improving performance of differential space-time block codesTarasak, Poramate. 10 April 2008 (has links)
No description available.
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Capacity and error probability analysis for space time block codes and pulse position amplitude modulation ultra wideband communication systemsZhang, Hao 10 April 2008 (has links)
No description available.
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Concatenated space-time block codes and turbo codes with unstructured interferenceChow, William. 10 April 2008 (has links)
The performance of space-time block codes in providing transmit diversity is severely degraded when strong localized interference is present. This problem is addressed by investigating a recently proposed coherent space-time block code decoding algorithm for unknown interference suppression. The algorithm assumes a Gaussian noise and interference approximation and is based on a cyclic-based maximum-likelihood estimation technique (CML). In this thesis, simulations are done applying CML in a coherent system with unstructured interference to validate previous work. An extension of these results is obtained by examining factors that affect CML performance and modifying CML for use in a noncoherent system. To improve bit error rate performance, a turbo code for channel coding was added to both systems. This addition required the development of reliability metrics for soft-information transfer between the space-time block code detector and the turbo code decoder. Significant coding gains exceeding 8dB at a bit error rate of are achieved for the turbo-coded system when compared to that of an uncoded system.
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On diversity in wireless communicationsLi, Wei, Ph. D. 10 April 2008 (has links)
No description available.
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Performance of space-time trellis codes in fading channelsFarooq, Mohammad Omar. 10 April 2008 (has links)
No description available.
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Quality of service for ad hoc on-demand distance vector routingZhang, Yihai. 10 April 2008 (has links)
A mobile ad hoc network (MANET) is a collection of mobile nodes that form a wireless
network without the use of a fixed infrastructure or centralized administration, and every
node acts as a host as well as a router. The topology of an ad hoc network changes frequently
and unpredictably. The mobile nature and dynamic topology of MANETs make
it very difficult to provide Quality-of-Service (QoS) assurance in such networks. Considering
the limited bandwidth and battery power, finding routes that satisfy the bandwidth
constraint of applications is a significant challenge.
Ad hoc on-demand distance vector routing (AODV) is an on-demand routing protocol
that only provides best-effort routes. QS-AODV is proposed in this thesis. It is based
on AODV and creates routes according to the QoS requirements of the applications. It
is shown that QS-AODV provides performance comparable to AODV under light traffic.
In heavy traffic, QS-AODV provides higher packet delivery ratios and lower routing overheads,
at a cost of slightly longer end-to-end delays as the routes in QS-AODV are not
always the shortest. The effects of network size and mobility on the performance of QSAODV
are shown.
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Peak-to-average power-ratio and intercarrier-interference reduction algorithms for orthogonal frequency-division multiplexing systemsKou, Yajun. 10 April 2008 (has links)
No description available.
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An energy-efficient MAC protocol for ad hoc networksShi, Yongsheng (Sam Yongsheng). 10 April 2008 (has links)
No description available.
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A comparison of timing methods in orthogonal frequency division multiplexing (OFDM) systemsOz, Ersoy 09 1900 (has links)
Approved for public release; distribution is unlimited / Orthogonal frequency division multiplexing (OFDM) is being used by wireless local area network (WLAN) standards, such as IEEE 802.11a, and wireless metropolitan area network (MAN) standards, such as IEEE 802.16a. OFDM is a very efficient communications scheme for wireless ADHOC networks. However, the wireless environment causes inter-symbol interference (ISI) and inter-carrier interference (ICI). Estimating the starting point of an OFDM symbol must be handled efficiently and effectively to reduce the errors. OFDM must be time synchronized to prevent inter-symbol interference (ISI) and inter-carrier interference (ICI). Many techniques exist to realize timing synchronization in OFDM systems. In this thesis, the need for timing synchronization, the timing errors, and the performance of different techniques under a variety of mobile channel models (indoor and outdoor) are investigated, and simulation performance results for each technique under different channel models are presented. / First Lieutenant, Turkish Army
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